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1ABSTRACT
Now a days there is a huge rush in the toll plazas in order to
pay the toll tax.Therefore in order to reduce the traffic jam and
to save time, & also to reduce the moneyloss of 300 cores /
year. we have designed project for the automation in toll tax
paymentusing RFID. We have made the automation of toll plaza using
combination of microcontroller,RFID and Load cell technology.
This report explains the implantation of automation in toll
plaza which is a
step towards improving the monitoring of vehicles, travelling in
predetermine routes.
The aim of our project is to design a system ,which
automatically identifies anapproaching vehicles and record vehicles
number and time. If the vehicle belongs to theauthorized person, it
automatically opens the toll gate and a predetermined amount
isautomatically deducted from its account. This translate to
reduced Traffic congestion attoll plazas and helps in lower fuel
consumption. This is very important advantage of thissystem.
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2CONTENTS
1. Introduction:-
1.1 Project statement
1.2 Purpose of project
1.3 concept of project
2. Instrumentation:-
2.1 Block diagram and description
2.2 RFID basics
2.3 IR transmitter Receiver
2.4 Load cell
2.5 Payment mechanism
2.6 General Key Components.
3. Software design:-
3.1 Circuit diagram
3.2 Flow chart
4. Hardware design
5. Testing and Results
6. Advantages and limitations
7. Conclusion and future scope
8. Appendix
9. References
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3CHAPTER 1
INTRODUCTION
1.1:-PROJCET STATEMENT
Design and develop a Automatic toll plaza which is based On
microcontroller, RFIDtechnology and load cell to save the time at
toll plaza And having cash free operation
As the name suggests Automatic Toll Plaza the key theme of our
project is theautomation. So here we will just take the over look
of what is mean by Automation.
So in very simple language the Automation means to replace the
human being from theprocess with the machines .Means what presently
the human is doing on the process nowonwards the machines are going
to do.
Before moving further we will just take the overlook of history
of the toll plazas. Sobefore the 90s decade the toll plazas were
fully manual controlled. Means there are two peoplefor opening
& closing of the gate & another two are for reception of
the money & data keepingetc.
But in 1995 when the Express ways had been developed the semi
automatic toll plazaswere launched in which data is stored in
computers & gate operation is automatic, only twopersonals are
required for single booth. But here we are going to see the human
less toll plaza.
1.2 PURPOSE OF THE PROJECT:-
Here we are going to see some points regarding to purpose behind
choosing this topic& what is the requirement of this type of
the project in our day to day life.
Avoid the fuel loss.
Saving of time in collecting toll.
Avoid financial loss.
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4 To monitor the traffic.
So, according to serve of Maharashtra Government carried out in
Sept.2010,they haveproposed to get the annual toll collection of
1500 corers/year .But in the present situation only1200 corers of
the toll value is collected. Means there is loss of 300 cores due
to some humanerrors. So, we have to control this leakage.
Now the present system we have with us on the high ways takes 1
minute to complete
the toll collection process for one vehicle. With this automatic
process, it will take just 40 to 42sec. to complete the whole
process.
As there is reduction in time for completion of the process so
indirectly there will beno traffic as such & as there is no
traffic so no fuel wastage takes place & the purpose
ofdesigning the highways is achieved i.e. reduction in journey time
& also the money loss will bereduced.
1.3 CONCEPT OF PROJECT:-
Flow of project:-
Detection of vehicle
Weighing
Display of toll
Payment through smart card
When the vehicle is going to enter into the toll plaza, the
first aim is to detect the type& no. of the vehicle. For that
purpose it has to first pass through the IR transmitter - receiver
gate
Then we have here the RFID system. In this system the tag which
is stickled at thefront glass of the vehicle is detected by the
RFID reader & the data is matched with the data baseprovided at
every toll booth.
When further vehicle is going towards the Load cell plate it has
to pass through the IRtransmitter - receiver gate.
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5Which we are using to detect the exact location of the vehicle
on the load cell platebecause the load cell plate has one property
that it cant weigh the objects which are not stable onthe plate, So
for detection of exact location & steadiness of the vehicle on
the load cell plate weare using here the IR Transmitter Receiver
gate.
Now when the vehicle is at steady position on the load cell
plate, it weighs the vehicleaccurately & gives the analog
signal to the controller which then displays the respective
amountof the toll value.
Then the consumer has to just swap his smart card so that
desired amount of toll willbe deducted from his account. This is
the simple concept of our project.
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6CHAPTER 2
INSTRUMENTATION
2.1 ENGINEERING BLOCK DIAGRAM AND DESCRIPTION:-
As you are able to see in the above fig. there is the
engineering block diagram of ourproject that we have designed at
the primary stage of our project.
So, the diagram consist of RFID tag, RFID reader, IR transmitter
receiver, signalconditioning unit, micro controller, load cell,
amplifier, ADC,LCD display.
Then what is the flow of the diagram? so, the flow starts from
the RFID tag which isdetected by the RFID reader & sends the
data i.e. type & no. of vehicle stored in 12 digit codeform in
the tag to the controller to match with data base provided at
booth.
Then the IR transmitter receiver assembly will detect the exact
location of the vehicleon the load cell plate to actuate the
weighing operation. The load cell then weighs the vehicle
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7accurately & transmits the analog signal through the
instrumentation amplifier to comparator
where it is compared with the stored data..
The controller then compares the signal with the stored value of
respective toll &displays on LCD. So the consumer has to just
sap his smart card so desired amount will bededucted from his
account.
The signal conditioning unit is the device which converts the
analog signal comingfrom analog sensor & digital signal from
digital sensor will be converted to 0-5 v which issuitable for
controller.
This is the simple working of our engineering block diagram that
we have designedat the primary stage.
2.2 RFID BASICS:-
RFID stands for Radio-Frequency Identification. The acronym
refers to smallelectronic devices that consist of a small chip and
an antenna. The chip typically is capable of
carrying 2,000 bytes of data or less.
Region Frequency (Hz) Wavelength (m) Energy (eV) Size ScaleRadio
waves < 109 > 0.3 < 7x 10-7 Mountains,
building
The RFID device serves the same purpose as a bar code or a
magnetic strip on theback of a credit card or ATM card; it provides
a unique identifier for that object. And, just as abar code or
magnetic strip must be scanned to get the information, the RFID
device must bescanned to retrieve the identifying information.
RFID WORKS BETTER THAN BARCODESA significant advantage of RFID
devices over the others mentioned above is that
the RFID device does not need to be positioned precisely
relative to the scanner. We're allfamiliar with the difficulty that
store checkout clerks sometimes have in making sure that a
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8barcode can be read. And obviously, credit cards and ATM cards
must be swiped through aspecial reader.
In contrast, RFID devices will work within a few feet (up to 20
feet for high-frequency devices) of the scanner. For example, you
could just put all of your groceries orpurchases in a bag, and set
the bag on the scanner. It would be able to query all of the
RFIDdevices and total your purchase immediately.
RFID technology has been available for more than fifty years. It
has only beenrecently that the ability to manufacture the RFID
devices has fallen to the point where they canbe used as a
"throwaway" inventory or control device.
One reason that it has taken so long for RFID to come into
common use is thelack of standards in the industry. Most companies
invested in RFID technology only use the tagsto track items within
their control; many of the benefits of RFID come when items are
trackedfrom company to company or from country to country.
1) HOW DOES RFID WORKS?
A Radio-Frequency Identification system has three parts:
A scanning antenna A transceiver with a decoder to interpret the
data A transponder - the RFID tag - that has been programmed with
information.
The scanning antenna puts out radio-frequency signals in a
relatively short range.The RF radiation does two things:
It provides a means of communicating with the transponder (the
RFID tag) AND It provides the RFID tag with the energy to
communicate (in the case of passive RFID
tags).
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9This is an absolutely key part of the technology; RFID tags do
not need tocontain batteries, and can therefore remain usable for
very long periods of time (maybedecades).
The scanning antennas can be permanently affixed to a surface;
handheldantennas are also available. They can take whatever shape
you need; for example, you couldbuild them into a door frame to
accept data from persons or objects passing through.
When an RFID tag passes through the field of the scanning
antenna, it detectsthe activation signal from the antenna. That
"wakes up" the RFID chip, and it transmits theinformation on its
microchip to be picked up by the scanning antenna.
In addition, the RFID tag may be of one of two types. Active
RFID tags havetheir own power source; the advantage of these tags
is that the reader can be much fartheraway and still get the
signal. Even though some of these devices are built to have up to a
10year life span, they have limited life spans. Passive RFID tags,
however, do not requirebatteries, and can be much smaller and have
a virtually unlimited life span.
RFID tags can be read in a wide variety of circumstances, where
barcodes orother optically read technologies are useless.
The tag need not be on the surface of the object (and is
therefore not subject to wear) The read time is typically less than
100 milliseconds Large numbers of tags can be read at once rather
than item by item.
In essence, that's how RFID works.
2) RFID TAG:-
An RFID tag is a microchip combined with an antenna in a compact
package; thepackaging is structured to allow the RFID tag to be
attached to an object to be tracked. "RFID"stands for Radio
Frequency Identification.
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The tag's antenna picks up signals from an RFID reader or
scanner and thenreturns the signal, usually with some additional
data (like a unique serial number or othercustomized
information).
RFID tags can be very small - the size of a large rice grain.
Others may be thesize of a small paperback book.
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ACTIVE TAG (ACTIVE RFID TAG)
An RFID tag is an active tag when it is equipped with a battery
that can be usedas a partial or complete source of power for the
tag's circuitry and antenna. Some active tagscontain replaceable
batteries for years of use; others are sealed units. (Note that it
is also possibleto connect the tag to an external power
source.)
The major advantages of an active RFID tag are:
It can be read at distances of one hundred feet or more, greatly
improving the utility ofthe device
It may have other sensors that can use electricity for
power.
The problems and disadvantages of an active RFID tag are:
The tag cannot function without battery power, which limits the
lifetime of the tag. The tag is typically more expensive, often
costing $20 or more each The tag is physically larger, which may
limit applications.
Active RFID tags may have all or some of the following
features:
longest communication range of any tagthe capability to perform
independent monitoring and controlthe capability of initiating
communications
the capability of performing diagnosticsthe highest data
bandwidth
active rfid tags may even be equipped with autonomous
networking; theautonomously determine the best communication
path.
tags
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PASSIVE RFID TAG (OR PASSIVE TAG)
A passive tag is an RFID tag that does not contain a battery;
the power is suppliedby the reader. When radio waves from the
reader are encountered by a passive RFID tag, thecoiled antenna
within the tag forms a magnetic field. The tag draws power from it,
energizing thecircuits in the tag. The tag then sends the
information encoded in the tag's memory.
The major disadvantages of a passive RFID tag are:
The tag can be read only at very short distances, typically a
few feet at most. This greatlylimits the device for certain
applications.
It may not be possible to include sensors that can use
electricity for power. The tag remains readable for a very long
time, even after the product to which the tag is
attached has been sold and is no longer being tracked.
The advantages of a passive tag are:
The tag functions without a battery; these tags have a useful
life of twenty years or more. The tag is typically much less
expensive to manufacture The tag is much smaller (some tags are the
size of a grain of rice). These tags have almost
unlimited applications in consumer goods and other areas.
3) RFID READER:-
An RFID reader is a device that is used to interrogate an RFID
tag. The readerhas an antenna that emits radio waves; the tag
responds by sending back its data.
A number of factors can affect the distance at which a tag can
be read (the readrange). The frequency used for identification, the
antenna gain, the orientation and polarizationof the reader antenna
and the transponder antenna, as well as the placement of the tag on
theobject to be identified will all have an impact on the RFID
systems read range.
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ANTENNA (RFID TAG ANTENNA)
The antenna in an RFID tag is a conductive element that permits
the tag toexchange data with the reader. Passive RFID tags make use
of a coiled antenna that can create amagnetic field using the
energy provided by the reader's carrier signal.
RFID SYSTEM
RFID STRUCTURE
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RFID CARD
2.3 IR TRANSMITTER & RECEIVER:-
The IR Transmitter Receiver gate we are using in our project to
detect the exactlocation & position of the vehicle on the load
cell plate. Because one problem with load cell plateis that it is
unable to weigh the moving object.
The IR transmitter is continuously emitting the IR rays towards
the IR receiver.When the vehicle is going to come across the gate
the rays are deflected from the vehicle & IRreceiver doesnt get
any signal.
The IR Receiver will give the replying signal to the controller
to actuate the load cellplate as the vehicle is at exact location
on the load cell plate.
Here for IR transmitter we are using IR LEDs. The IR transmitter
we may design inour home by just connecting desired value of
resistance in +ve arm & another is grounded.
The IR receiver has three pins i.e. 5V supply, GND. Line, signal
line.
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IR TRANSMITTER RECEIVER LED PAIR
IR TRANSMITTER
IR RECEIVER
WIRING DIAGRAM FOR IR RECEIVER
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region Frequency(Hz) Wavelength(m) Energy (eV)
Infrared 3x1011 - 3.9x1014 7.6x10-7 - 0.001 2x10-4 - 0.3
2.4 LOAD CELL:-
A load cell is a transducer that converts load acting on it into
an analog electricalsignal. This conversion is achieved by the
physical deformation of strain gages which are bondedinto the load
cell beam and wired into a Wheatstone bridge configuration.
Here in our project we are using the strain gauge type load cell
plate as it is verycommonly & widely used load cell plate. We
are concentrating on the canister type strain gaugeas it has wide
range.
Before strain gage-based load cells became the method of choice
for industrialweighing applications, mechanical lever scales were
widely used. Mechanical scales can weigheverything from pills to
railroad cars and can do so accurately and reliably if they are
properlycalibrated and maintained.
The method of operation can involve either the use of a weight
balancingmechanism or the detection of the force developed by
mechanical levers. The earliest, pre-straingage force sensors
included hydraulic and pneumatic designs. In 1843, English
physicist SirCharles Wheatstone devised a bridge circuit that could
measure electrical resistances.
The Wheatstone bridge circuit is ideal for measuring the
resistance changes thatoccur in strain gages. Although the first
bonded resistance wire strain gage was developed in the
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1940s, it was not until modern electronics caught up that the
new technology became technicallyand economically feasible. Since
that time, however, strain gages have proliferated both
asmechanical scale components and in stand-alone load cells.
Today, except for certain laboratories where precision
mechanical balances are stillused, strain gage load cells dominate
the weighing industry. Pneumatic load cells are sometimesused where
intrinsic safety and hygiene are desired, and hydraulic load cells
are considered inremote locations, as they do not require a power
supply. Strain gage load cells offer accuraciesfrom within 0.03% to
0.25% full scale and are suitable for almost all industrial
applications.
Strain Gage Load Cells
Bending BeamLoad Cells
10-5klbs.
0.03% Tanks, platformscales,
Low cost, simple
construction
Strain gages areexposed,require protection
Shear BeamLoad Cells
10-5klbs.
0.03% Tanks, platformscales,
off- center loads
High side loadrejection, bettersealing andprotection
Canister LoadCells
to 500klbs.
0.05% Truck, tank, track,and hopper scales
Handles loadmovements
No horizontal loadprotection
Ring andPancake LoadCells
5- 500klbs.
Tanks, bins, scales All stainless steel No load
movementallowed
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Button andwasher
Load Cells
0-50klbs
0-200
lbs. typ.
1% Small scales Small, inexpensive Loads must becentered, noload
movementpermitted
EXACT LOCATION OF LOAD CELL PLATE IN THE ROAD BED
2.5 PAYMENT MECHANISM:-
The payment mechanism we are using here is the smart card type
mechanism. Herewe are using the chip having the memory capacity of
4K.The memory has in it the stored amountof money value. When the
switch is pressed for the payment the desired amount will be
deductedfrom the memory & remaining amount is displayed on the
LCD.
When the memory card gets nil it requires to recharge the card
again to continuewith the process.
2.6 GENERAL KEY COMPONENTS:-
MICROCONTROLLER 8051In our project we are using the 89C51ED2 or
89C51RD2 chip as we are familiar
with them. The controller has 40 pin structures having 4 ports
i.e. 0,1,2,3.
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INSTRUMENTATION AMPLIFIER
An instrumentation (orinstrumentational)amplifier is a type
ofdifferentialamplifier that has been outfitted with input buffers,
which eliminate the need for inputimpedance matching and thus make
the amplifier particularly suitable for use in measurementand test
equipment. Additional characteristics include very low DC offset,
low drift, lownoise,very high open-loop gain, very high common-mode
rejection ratio, and very high inputimpedances. Instrumentation
amplifiers are used where great accuracy and stability ofthe
circuit both short- and long-term are required.
Although the instrumentation amplifier is usually shown
schematically identical to astandard op-amp, the electronic
instrumentation amp is almost always internally composed of
3op-amps. These are arranged so that there is one op-amp to buffer
each input (+,), and one toproduce the desired output with adequate
impedance matching for the function.[1][2]
The most commonly used instrumentation amplifier circuit is
shown in the figure.The gain of the circuit is
The rightmost amplifier, along with the resistors labeled R2 and
R3 is just thestandard differential amplifier circuit, with gain =
R3 / R2 and differential input resistance = 2R2.The two amplifiers
on the left are the buffers. With Rgain removed (open circuited),
they aresimple unity gain buffers; the circuit will work in that
state, with gain simply equal to R3 / R2 andhigh input impedance
because of the buffers.
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2X16 LINE ALPHANUMERIC LCD DISPLAY
The most commonly used ALPHANUMERIC displays are 1x16 (Single
Line & 16characters), 2x16 (Double Line & 16 character per
line) & 4x20 (four lines & Twenty charactersper line).
The LCD requires 3 control lines (RS, R/W & EN) & 8 (or
4) data lines. Thenumber on data lines depends on the mode of
operation. If operated in 8-bit mode then 8 datalines + 3 control
lines i.e. total 11 lines are required. And if operated in 4-bit
mode then 4 datalines + 3 control lines i.e. 7 lines are required.
How do we decide which mode to use? Its simpleif you have
sufficient data lines you can go for 8 bit mode & if there is a
time constrain i.e.display should be faster then we have to use
8-bit mode because basically 4-bit mode takes twiceas more time as
compared to 8-bit mode.
When RS is low (0), the data is to be treated as a command. When
RS is high (1),the data being sent is considered as text data which
should be displayed on the screen.
When R/W is low (0), the information on the data bus is being
written to the LCD.When RW is high (1), the program is effectively
reading from the LCD. Most of the times thereis no need to read
from the LCD so this line can directly be connected to Gnd thus
saving onecontroller line.
The ENABLE pin is used to latch the data present on the data
pins. A HIGH - LOWsignal is required to latch the data. The LCD
interprets and executes our command at the instantthe EN line is
brought low. If you never bring EN low, your instruction will never
be executed.
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CHAPTER 3
3.1CIRCUIT DIAGRAM:-
SOFTWARE DESIGN
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3.2 FLOW CHART:-
START
When vehicle comes & cuts the IR rays(receiver=0)
Vehicle passes & again senses IR rays (receiver=1)
Load senses by load sensor at that time vehiclestays steady
At same time RFID receiver getinformation about vehicle fromRFID
tag over receiver
RFIDFAIL
Buzzeron
A
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A
Customer pays toll by smart card
The deducted value from the account willdisplayed on LCD
Then at same time outgoing gate will open forvehicle
STOP
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CHAPTER 4
HARDWARE DESIGN
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CHAPTER 5
TESTING AND RESULTS
Whenever a IR rays at the entry gate get cut by the vehicle the
gate opens & it
remain open till the rays are mismatched.As the rays get
connected again then thegate gets closed.
From RFID tag we get information about vehical number which is
sensed by theRFID reader which will then transmite the data to the
controller.
From laod cell we can get the load of vehical,from which we are
detecting thetype of vehicle that it may be the light vehicle or
heavy vehicle.
From both load cell & RFID we get the type of vehical and
its number.Then thetoll amount will be displayed on the LCD.
By smart card mechanism toll amount will be paid & at the
same time exit gate
will be opened automatically for the vehicle topass through.
The whole time duration for payment of toll will be less than 1
min i.e
approximately 40-42 sec.
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CHAPTER 6
ADVANTAGES
Financial leakage controlAs per survey it is clear that, for
every year their will be the loss of
300crores of money from the gross toll collection value which is
estimated up to1500 crores.
By utilizing fully automatic mechanism we can nearly able to
control thisfinancial loss.
Fuel savingDue to automation of toll plaza their will be large
reduction in the rush at
toll plaza which will cause indirectly the saving of fuel.
Reduced man powerThe basic aim of Automation concept is to
reduce the man power & to
increase the accuracy of the system. So we can able to achieve
the same with ouron built concept.
Reduced time for completion of processThe present system we have
in work today consumes nearly 1 minute for
each vehicle to complete the process of toll payment. With our
automated tollplaza we can able to reduce the time consumption
nearly up to 40-42 sec.whichwill be very important in todays
era.
Cash free operationDue to smart card mechanism that we have used
for the payment. Their
will be no necessity of hand to hand cash transaction. So
causing reduction inmoney loss.
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LIMITATIONS
Load sensing for long length vehicle becomes critical.The load
cell plate we can use in set up of project in actual is
approximately 50 feet(15-16 meters).But if the vehicle having
the length morethan 50 feet come on the load cell plate then the
system will not able to weigh thevehicle correctly.
To overcome this problem we may keep the separate lane for
suchvehicles with fixed amount of toll amount.
If RFID fails whole system fails.The RFID system we are here
using for detecting the vehicle number
means the vehicle identity which we are further using for
storing into memory &also to display on the LCD.
If the RFID fails to detect the correct identity of the vehicle
the dataregarding the vehicle will be wrong which will may create
many problems &system fails because without vehicle identity
load cell will not weigh the vehicle.
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CHAPTER 7
CONCLUSION
By doing automation of toll plaza we can have the best solution
over moneyloss at toll plaza by reducing the man power required for
collection of money and alsocan reduce the traffic indirectly
resulting in reduction of time at toll plaza.
In our project we have introduced the techniques such as Radio
FrequencyIdentification.This technique will include the RFID tag
& reader which in coordinationwith each other can be used to
detect the vehicle identity.
The load cell plate which is introduced for weighing the
vehicles so as toclassify them in different catagories as light
& heavy vehicles.
The IR Transreceiver is used for detecting the presence of
vehicle atdifferent locations which will act as the gate pass to
the toll plaza.
By effectively utilizing these three techniques at different
stages of ourproject we are able to represent the automation in
toll plaza which will reduce thecomplete processing time by few
seconds which is very important as well as helps toreduce money
leakage in a very cost effective manner.
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FUTURE SCOPE
1. Implementation of automatic money debit systemIn our project
now we are implementing the smart card mechanism
for the payment of the toll amount paid by the vehicle
owner.When the vehiclecomes on the load cell plate for weighing ,at
that time the vehicle owner has toswap his smart card in the debit
machine.So, desired amount of toll amount willbe deducted from the
account of owner.
Here we can also implement the automatic debit system.In
thissystem we have to treat the RFID card also as the smart card.In
the RFID card wehave now vehicle number in the code format.So,we
can combine the RFID cardwith smart card as both are the different
forms of basic principle of Bar code.
2. Implementation of image processing for centralize data
recordingIn our present concept we are only using the RFID system
for
vehicle detection.So we can extend the scope of this concept in
other way forcentralize data recording.For that purpose we can use
the IR courten at the entrygate which is followed by the Camera
which will be continuesly capturing theimages of the vehicles
entering into the toll plaza.And the third step the RFID
iscollecting the vehicle number.
Now when the vehicle passes through the IR courten it tresses
the
outline of the vehicle,in the next step the camera will take the
image of the vehicle
& followed by the RFID to record the data related to the
vehicle.The load cellweighs the vehicle & classifies it into
two categories as light & heavy vehiclerespectively.The whole
data collected together & sent to the centralize serverwhich
will store it for stippulated time.This application will help in
detecting thevehicles in the crime cases like terririsom &
smuglling of goods & it will alsoreduce the load on check
posts.
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CHAPTER 8
APPENDIX
8.1 DATA SHEET OF 89C518.2 DATA SHEET OF 74048.3 DATA SHEET OF
LM3588.4 DATA SHEET OF LCD JHD162A
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CHAPTER 9
REFERANCES
WEBSITES:-
www.irb.com www.scrib.com www.wikipedia.com www.google.co.in
www.ieeexplorer.com
BOOKS:-
ETC edition September 2007 by Steinar Furan. Documentary on IR
receiver by Inisca Cristian & Coroiu Stefan. Auto
identification & computing applications using RFID & smart
technology by
Judith Symonds & David Parry.
